mirror of
https://github.com/ultravideo/uvg266.git
synced 2024-11-28 03:34:06 +00:00
Created function inter_recon_lcu_bipred() and moved bipred recon there
This commit is contained in:
parent
50fce975d9
commit
e12ba7c80f
61
src/inter.c
61
src/inter.c
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@ -55,16 +55,8 @@ void inter_set_block(videoframe_t* frame, uint32_t x_cu, uint32_t y_cu, uint8_t
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cu->depth = depth;
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cu->depth = depth;
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cu->type = CU_INTER;
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cu->type = CU_INTER;
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cu->part_size = SIZE_2Nx2N;
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cu->part_size = SIZE_2Nx2N;
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cu->inter.mode = cur_cu->inter.mode;
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memcpy(&cu->inter, &cur_cu->inter, sizeof(cur_cu->inter));
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cu->inter.mv[0][0] = cur_cu->inter.mv[0][0];
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cu->inter.mv[0][1] = cur_cu->inter.mv[0][1];
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cu->inter.mv[1][0] = cur_cu->inter.mv[1][0];
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cu->inter.mv[1][1] = cur_cu->inter.mv[1][1];
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cu->inter.mv_dir = cur_cu->inter.mv_dir;
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cu->inter.mv_ref[0] = cur_cu->inter.mv_ref[0];
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cu->inter.mv_ref[1] = cur_cu->inter.mv_ref[1];
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cu->inter.mv_ref_coded[0] = cur_cu->inter.mv_ref_coded[0];
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cu->inter.mv_ref_coded[1] = cur_cu->inter.mv_ref_coded[1];
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cu->tr_depth = tr_depth;
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cu->tr_depth = tr_depth;
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}
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}
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}
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}
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@ -334,6 +326,55 @@ void inter_recon_lcu(const encoder_state_t * const state, const image_t * const
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}
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}
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}
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}
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/**
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* \brief Reconstruct bi-pred inter block
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* \param ref1 reference picture to copy the data from
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* \param ref2 other reference picture to copy the data from
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* \param xpos block x position
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* \param ypos block y position
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* \param width block width
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* \param mv[2][2] motion vectors
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* \param lcu destination lcu
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* \returns Void
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*/
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void inter_recon_lcu_bipred(const encoder_state_t * const state, const image_t * ref1, const image_t * ref2, int32_t xpos, int32_t ypos, int32_t width, const int16_t mv_param[2][2], lcu_t* lcu) {
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pixel_t *temp_lcu_y = MALLOC(pixel_t, 64 * 64);
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pixel_t *temp_lcu_u = MALLOC(pixel_t, 32 * 32);
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pixel_t *temp_lcu_v = MALLOC(pixel_t, 32 * 32);
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int temp_x, temp_y;
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// TODO: interpolated values require 14-bit accuracy for bi-prediction, current implementation of ipol filters round the value to 8bits
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inter_recon_lcu(state, ref1, xpos, ypos, width, mv_param[0], lcu);
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memcpy(temp_lcu_y, lcu->rec.y, sizeof(pixel_t) * 64 * 64);
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memcpy(temp_lcu_u, lcu->rec.u, sizeof(pixel_t) * 32 * 32);
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memcpy(temp_lcu_v, lcu->rec.v, sizeof(pixel_t) * 32 * 32);
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inter_recon_lcu(state, ref2, xpos, ypos, width, mv_param[1], lcu);
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for (temp_y = 0; temp_y < width; ++temp_y) {
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int y_in_lcu = ((ypos + temp_y) & ((LCU_WIDTH)-1));
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for (temp_x = 0; temp_x < width; ++temp_x) {
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int x_in_lcu = ((xpos + temp_x) & ((LCU_WIDTH)-1));
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lcu->rec.y[y_in_lcu * LCU_WIDTH + x_in_lcu] = (pixel_t)(((int)lcu->rec.y[y_in_lcu * LCU_WIDTH + x_in_lcu] +
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(int)temp_lcu_y[y_in_lcu * LCU_WIDTH + x_in_lcu] + 1) >> 1);
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}
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}
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for (temp_y = 0; temp_y < width>>1; ++temp_y) {
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int y_in_lcu = (((ypos >> 1) + temp_y) & (LCU_WIDTH_C - 1));
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for (temp_x = 0; temp_x < width>>1; ++temp_x) {
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int x_in_lcu = (((xpos >> 1) + temp_x) & (LCU_WIDTH_C - 1));
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lcu->rec.u[y_in_lcu * LCU_WIDTH_C + x_in_lcu] = (pixel_t)(((int)lcu->rec.u[y_in_lcu * LCU_WIDTH_C + x_in_lcu] +
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(int)temp_lcu_u[y_in_lcu * LCU_WIDTH_C + x_in_lcu] + 1) >> 1);
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lcu->rec.v[y_in_lcu * LCU_WIDTH_C + x_in_lcu] = (pixel_t)(((int)lcu->rec.v[y_in_lcu * LCU_WIDTH_C + x_in_lcu] +
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(int)temp_lcu_v[y_in_lcu * LCU_WIDTH_C + x_in_lcu] + 1) >> 1);
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}
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}
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FREE_POINTER(temp_lcu_y);
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FREE_POINTER(temp_lcu_u);
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FREE_POINTER(temp_lcu_v);
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}
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/**
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/**
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* \brief Get merge candidates for current block
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* \brief Get merge candidates for current block
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* \param encoder encoder control struct to use
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* \param encoder encoder control struct to use
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@ -41,6 +41,7 @@ typedef struct {
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//void inter_set_block(image* im,uint32_t x_cu, uint32_t y_cu, uint8_t depth, cu_info *cur_cu);
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//void inter_set_block(image* im,uint32_t x_cu, uint32_t y_cu, uint8_t depth, cu_info *cur_cu);
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void inter_recon_lcu(const encoder_state_t * const state, const image_t * ref, int32_t xpos, int32_t ypos, int32_t width, const int16_t mv_param[2], lcu_t* lcu);
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void inter_recon_lcu(const encoder_state_t * const state, const image_t * ref, int32_t xpos, int32_t ypos, int32_t width, const int16_t mv_param[2], lcu_t* lcu);
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void inter_recon_lcu_bipred(const encoder_state_t * const state, const image_t * ref1, const image_t * ref2, int32_t xpos, int32_t ypos, int32_t width, const int16_t mv_param[2][2], lcu_t* lcu);
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void inter_get_spatial_merge_candidates(int32_t x, int32_t y, int8_t depth, cu_info_t **b0, cu_info_t **b1,
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void inter_get_spatial_merge_candidates(int32_t x, int32_t y, int8_t depth, cu_info_t **b0, cu_info_t **b1,
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cu_info_t **b2, cu_info_t **a0, cu_info_t **a1, lcu_t *lcu);
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cu_info_t **b2, cu_info_t **a0, cu_info_t **a1, lcu_t *lcu);
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32
src/search.c
32
src/search.c
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@ -2472,37 +2472,7 @@ static double search_cu(encoder_state_t * const state, int x, int y, int depth,
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lcu_set_trdepth(&work_tree[depth], x, y, depth, tr_depth);
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lcu_set_trdepth(&work_tree[depth], x, y, depth, tr_depth);
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if (cur_cu->inter.mv_dir == 3) {
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if (cur_cu->inter.mv_dir == 3) {
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pixel_t *temp_lcu_y = MALLOC(pixel_t, 64 * 64);
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inter_recon_lcu_bipred(state, state->global->ref->images[cur_cu->inter.mv_ref[0]], state->global->ref->images[cur_cu->inter.mv_ref[1]], x, y, LCU_WIDTH >> depth, cur_cu->inter.mv, &work_tree[depth]);
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pixel_t *temp_lcu_u = MALLOC(pixel_t, 32 * 32);
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pixel_t *temp_lcu_v = MALLOC(pixel_t, 32 * 32);
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int temp_x, temp_y;
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inter_recon_lcu(state, state->global->ref->images[cur_cu->inter.mv_ref[0]], x, y, LCU_WIDTH >> depth, cur_cu->inter.mv[0], &work_tree[depth]);
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memcpy(temp_lcu_y, lcu->rec.y, sizeof(pixel_t) * 64 * 64);
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memcpy(temp_lcu_u, lcu->rec.u, sizeof(pixel_t) * 32 * 32);
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memcpy(temp_lcu_v, lcu->rec.v, sizeof(pixel_t) * 32 * 32);
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inter_recon_lcu(state, state->global->ref->images[cur_cu->inter.mv_ref[1]], x, y, LCU_WIDTH >> depth, cur_cu->inter.mv[1], &work_tree[depth]);
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for (temp_y = 0; temp_y < LCU_WIDTH >> depth; ++temp_y) {
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int y_in_lcu = ((y + temp_y) & ((LCU_WIDTH)-1));
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for (temp_x = 0; temp_x < LCU_WIDTH >> depth; ++temp_x) {
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int x_in_lcu = ((x + temp_x) & ((LCU_WIDTH)-1));
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lcu->rec.y[y_in_lcu * LCU_WIDTH + x_in_lcu] = (pixel_t)(((int)lcu->rec.y[y_in_lcu * LCU_WIDTH + x_in_lcu] +
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(int)temp_lcu_y[y_in_lcu * LCU_WIDTH + x_in_lcu] + 1) >> 1);
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}
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}
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for (temp_y = 0; temp_y < LCU_WIDTH >> (depth+1); ++temp_y) {
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int y_in_lcu = (((y >> 1) + temp_y) & (LCU_WIDTH_C - 1));
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for (temp_x = 0; temp_x < LCU_WIDTH >> (depth+1); ++temp_x) {
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int x_in_lcu = (((x >> 1) + temp_x) & (LCU_WIDTH_C - 1));
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lcu->rec.u[y_in_lcu * LCU_WIDTH_C + x_in_lcu] = (pixel_t)(((int)lcu->rec.u[y_in_lcu * LCU_WIDTH_C + x_in_lcu] +
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(int)temp_lcu_u[y_in_lcu * LCU_WIDTH_C + x_in_lcu] + 1) >> 1);
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lcu->rec.v[y_in_lcu * LCU_WIDTH_C + x_in_lcu] = (pixel_t)(((int)lcu->rec.v[y_in_lcu * LCU_WIDTH_C + x_in_lcu] +
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(int)temp_lcu_v[y_in_lcu * LCU_WIDTH_C + x_in_lcu] + 1) >> 1);
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}
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}
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FREE_POINTER(temp_lcu_y);
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FREE_POINTER(temp_lcu_u);
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FREE_POINTER(temp_lcu_v);
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} else {
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} else {
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inter_recon_lcu(state, state->global->ref->images[cur_cu->inter.mv_ref[cur_cu->inter.mv_dir - 1]], x, y, LCU_WIDTH >> depth, cur_cu->inter.mv[cur_cu->inter.mv_dir - 1], &work_tree[depth]);
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inter_recon_lcu(state, state->global->ref->images[cur_cu->inter.mv_ref[cur_cu->inter.mv_dir - 1]], x, y, LCU_WIDTH >> depth, cur_cu->inter.mv[cur_cu->inter.mv_dir - 1], &work_tree[depth]);
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}
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}
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